| 1. | The Larmor frequency is important in NMR spectroscopy.
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| 2. | Where \ gamma is the ratio of the Larmor frequency to the magnetic field intensity.
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| 3. | Another interpretation : the frequency excursion of the adiabatic pulse is always centered at the presumed Larmor frequency.
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| 4. | In the laboratory frame it becomes a rotating magnetization in the x-y plane at the Larmor frequency.
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| 5. | Crucially, the Larmor frequency is independent of the polar angle between the applied magnetic field and the magnetic moment direction.
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| 6. | The gyromagnetic ratios, which give the Larmor frequencies at a given magnetic field strength, have been measured and tabulated here.
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| 7. | Because of this uniformity, most free water protons have resonance frequencies very near the average Larmor frequency of all such protons.
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| 8. | Another assumption we have made was the exact resonance condition, in which the Larmor frequency is equal to the microwave frequency.
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| 9. | By sweeping the frequency to obtain a maximum intensity, one can find out the Larmor frequency and the magnetic moment of the atom.
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| 10. | If the rotating field has frequency ( ? ) equal to the Larmor frequency, it will produce a high intensity of the other beam ( spin down state ).
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